Organic pyroelectric materials for device applications

Yıl 2010, Cilt: 12 Sayı: 1, 75 - 90, 01.06.2010

Rifat Çapan

Öz

The wide range of applications of thermal imaging devices existing in military, industrial and space fields attract researchers to study pyroelectric materials which exhibit a temperature-dependent spontaneous polarisation. A brief review of pyroelectricity, pyroelectric materials and some commercial applications of these materials we will be given in this paper

Anahtar Kelimeler

Pyroelectric effect, pyroelectric materials, applications of pyroelectricity

Kaynakça

• Lang, S.B., Source of Pyroelectricity, Gordon & Breach Science Publisher, New York, (1974).
• Poulter, M., Pyroelectric Organic Thin Films, Ph.D. Thesis, University of Oxford, UK, (1992).
• Brewster, D., Edinburgh J. Sci., 1, 208, (1824).
• Valasek, J., Phys. Rev., 1, 475, (1921).
• Ta, Y., Compt. Rend., 207, 1042, (1938).
• Whatmore, R.W., Rep. Prog. Phys., 49, 1335, (1986).
• Muralt, P., Rep. Prog. Phys., 64, 1339, (2001).
• Hadni, A., J. Phy. E: Sci. Instrum., 14, 1233, (1981).
• Roberts, G.G., Holcroft, B., Thin Solid Films, 180, 211, (1989).
• Richardson, T., The Preparation and Characterisation of Novel Organo- Ruthenium Langmuir-Blodgett Films, Ph.D. Thesis, University of Oxford, UK, (1989).
• Petty, M., Tsibouklis, J., Davis, F., Hodge, P., Petty, M.C., Feast, W.J., Journal of Physics D: Applied Physics, 25, 1032, (1992).
• Colbrook, R., Roberts, G.G., Ferroelectrics, 118, 199, (1991).
• Roberts, G.G., Science and Technology Rewiev, 1, 26 (1987).
• Gagulin, V.V., Chayanow, B.A., Izvestiya Akademii Nauk SSSR, Neorganicheskie Materialy, 18, 1667, (1982).
• Biddle, M.B., Rickert, S.E., Ferroelectrics, 76, 133, (1987).
• Porter, S.G., Ferroelectrics, 33, 193, (1981).
• Josh, J.C., Dawar, A.L., Phys. Stat. Sol. (a), 70, 353, (1982).
• Majid, W.H.A., Pyroelectric Activity in Cyclic and Linear Polysiloxane Langmuir-Blodgett Films, University of Sheffield UK, (1994).
• Poulter, M.W., Colbrook, R., Roberts, G.G., Lower-Dimentional System and Molecular Electronics, (Edited by Metzger R.M.), New York, (1991).
• Kang, D.S., Han, M.S., Lee, S.G., Song, S.H., J. European Ceramic Society, 23, , 515, (2003).
• Shaw, C.P., Gupta, S., Stringfellow, S.B., Navarro, A., Alcock, J.R., Whatmore, R.W., J. European Ceramic Society, 22, 2123, (2002).
• Dias, C., Simon, M., Quad, R., Gupta, D.K.D., J. Phys. D: Appl. Phys., 26, 106, Hughes, S.T., Piercy, A.R., J. Phys. D: Appl. Phys., 20, 1175, (1987).
• Roberts, G.G., Langmuir-Blodgett Films, Plenum Press, New York, (1990).
• Petty, M.C., Langmuir-Blodgett Films, Chambridge University Press, (1996).
• Capan, R., Batty, S.V., Richardson, T., Lacey, D., Holder, S.J., Majid, W.H.A., Thin Solid Films, 284-285, 915, (1996).
• Richardson, T., Topacli, A., Majid, A.B.D., Greenwood, M.B., Bruce, D.W., Thornton, A., Marsden, J.R., Advanced Materials for Optics and Electronics, 4, 243, (1994).
• Greenwood, M.B., Richardson, T., Bruce, D.W., Taylor, D.M., Lacey, D., Yarwood, J., Thin Solid Films, 284-285, 46 (1996).
• Kamata, T., Umemura, J., Takenaka, T., Koizumi, N., Takehara, K., Isomura, K., Taniguchi, H., Jpn. J. Appl. Phys., 33, 1074, (1994).
• Poulter, M.W., Roberts, G.G., Costello, J.F., Davies, S.G., Edwards, A.J., Thin Solid Films, 210-211, 427, (1992).
• Tsibouklis, J., Petty, M., Song, Y.P., Richardson, R., Yarwood, J., Petty, M.C., Feast, J.W., J. Mater. Chem., 1, 819, (1991).
• Majid, W.H.A., Richardson, T., Holder, S., Lacey, D., Thin Solid Films, 243, 378 (1994).
• Jones, C.A., Petty, M.C., Roberts, G.G., Proc. 6th IEEE Int. Symp. Applications of Ferroelectrics, IEEE, 195, (1986).
• Majid, W.H.A., Richardson, T.H., Lacey, D., Topacli, A., Thin Solid Films, 376, , (2000).
• Lacey, D., Holder, S.J., Majid, W.H.A., Capan, R., Richardson, T., Materials Science and Engineering C, 3, 197, (1995).
• Batty, S.V., Capan, R., Richardson, T., Mann, T.E., Lacey, D., Thin Solid Films, 285, 919, (1996).
• Lacey, D., Richardson, T., Davis, F., Capan, R., Materials Science and Engineering C, 8-9, 377, (1999).
• McCartney, M.C., Richardson, T., Pavier, M.A., Davis, F., Stirling, C.J.M., Thin Solid Films, 327-329, 431, (1998).
• Capan, R., Richardson, T., Lacey, D., Thin Solid Films, 327-329, 369 (1998).
• Myagkov, I.V., Mazurina, E.A., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 198-200, 89, (2002).
• Capan, R., Richardson, T.H., Tsibouklis, J., Colloids and Surfaces A: Physicochemical and Engineering Aspects, 198-200, 835, (2002).
• Capan, R., Richardson, T.H., Lacey, D., Thin Solid Films, 415, 236, (2002).
• McCartney, M.C., Electrical and Structural Properties of Calixarene Langmuir-Blodgett Films, Ph.D. Thesis, University of Sheffield, UK, (1998).
• Yang, J., Wang, R., Wang, H., Li, T., Pan, S., Zhang, B., Thin Solid Films, 243, , (1994).
• Liu, W., Ko, J.S., Zhu, W., Thin Solid Films, 371, 254, (2000).
• Zhang, Q., Whatmore, R.W., Journal of Physics D: Applied Physics, 34, ,(2001).
• Zhang, T., Ni, H., Sensors and Actuators A, 100, 252, (2002).
• Wu, H.G., Wang, S.M., Xu, Z.X., Fu, J., Materials Letters, 4235, 1, (2002).
• Zhang, Q.Q., Chan, H.L.W., Choy, C.L., Composites, Part A: Applied Science and Manufacturing, 30, 163, (1999).
• Zhao, L., Wang, S., Xu, Z., Fu, J., Wu, C., Cheng, S., Materials Letters, 57, 2116, (2003).
• Imai, T., Maeda, M., Suzuki I., J. Korean Physical Society, 32, 1485, (1998).
• Tripathi, A.K., Goel, T.C., Prakash, C., Material Science and Engineering B, 96, , (2002).
• Sun, L.L., Tan, O.K., Liu, W.G., Chen, X.F., Zhu, W., Microelectronic Engineering, 66, 738, (2003).
• Xu, Y.H., Cheng, C.H., Mackenzie, J.D., J. Non-Crystalline Solids, 176, 1, (1994).
• Ye, C., Tamagawa, T., Schiller, P., Polla, D.L., Sensors and Actuators A, 35, ,(1992).
• Liu, M.D., Wang, P.Y., Wu, G.A., Rao, Y.H., Sensors and Actuators A, 35, 259, (1993).
• Liu, W.G., Ko, J.S., Zhu, W.G., Thin Solid Films, 371, 254, (2000).
• Gerlach, G., Suchaneck, Kohler G.R., Sandner, T., Padmini, P., Krawietz, R., Pompe, W., Frey, J., Jost, O., Schonecker, A., Ferroelectrics, 230, 411, (1999).
• Poyato, R., Calzada, M.L., Ricote, J., Pardo, L., Willing, B., Integrated Ferroelectrics, 35, 1807, (2001).
• Zhang, Q.Q., Chan, H.L.W., Ploss, B., Zhou, Q.F., Choy, C.L., J. Non-Crystalline Solids, 254, 118, (1999).
• Poyato, R., Calzada, M.L., Pardo, L., J. European Ceramics Society, 21, 1593, (2001).
• Schmid, P.E., Levy, F., J. Korean Physical Society, 32, 1454, (1998).
• Jinhua, L., Ningyi, Y., Chan, H.L.W., Sensors and Actuators A, 100, 231, (2002).
• Putley, E.H., Optics&Laser Technology, 3, 150, (1971).
• Zhang, S.B., Guo X.Y., Xu J.T., Ferroelectrics, 232, 1064, (1999).
• Fairley, P.D., Rutt, H.N., Sensors and Actuators B, 75, 192, (2001).
• Novik, V.K., Gavrilova, N.D., Physics of the Solid State, 42, 991, (2000).
• Cascetta, F., Measurements, 16, 239, (1995).
• Pevtsov, E.Ph., Maleto, M.I., Petrovsky, V.I., Sigov, A.S., Chernokozhin, V.V., Microelectronic Engineering, 29, 97, (1995).
• Willing, B., Kohli, M., Muralt, P., Oehler, O., Infrared Physics & Technology, , 443, (1998).
• Kohler, R., Padmini, P., Gerlach, G., Hofmann, G., Bruchhaus, R., Integrated Ferroelectrics, 22, 903, (1998).
• Tar, D., Infrared Physics, 25, 349, (1985).
• Nicholson, J.P., Ahmed, H., Optics Communications, 49, 55, (1984).
• Watton, R., Burgess, D., Nelson, P., Infrared Physics, 19, 683, (1979).
• Turner, B., Boot, H.A.H., Infrared Physics, 16, 367, (1976).
• Logan, R.M., Infrared Physics, 15, 51, (1975).
• Logan, R.M., Watton, R., Infrared Physics, 12, 17, (1972).
• Lozinski, A., Wang, F., Uusimaki, A., Leppavuori, S., Sensors and Actuators A, , 290, (1998).
• Sun, L.L., Tan, O.K., Liu, W.G., Zhu, W.G., Yao, X., Infrared Physics & Technology, 44, 177, (2003).
• Sokoll, T., Norkus, V., Gerlach, G., Surface & Coatings Technology, 97, 469, (1997).
• Whatmore, R.W., Watton, R., Ferroelectrics, 236, 258, (2000).
• Clark, R.J., Sanderson, D.C.W., Radiation Measurements, 23, 641 (1994).
• Yokoo, T., Shibata, K., Kuwano, Y., Japanise Journal of Applied Physics, 24, , (1986).
• Antoniow, J.S., Henry, J.F., Égéé, M., Chirtoc, M., Rev Gén Therm, 36, 453, Haschberger, P., Bundschuh, M., Tank, V., Optical Engineering, 35, 882, (1996).